Biological Activity and Phytochemical Study of Scutellaria platystegia.

This study aimed to determine biological activity and phytochemical study of Scutellaria platystegia (family Labiatae). Methanolic (MeOH) extract of aerial parts of S. platystegia and SPE fractions of methanolic extract (specially 20% and 40% methanolic fractions), growing in East-Azarbaijan province of Iran were found to have radical scavenging activity by DPPH (2, 2-diphenyl -1- pycryl hydrazyl) assay. Dichloromethane (DCM) extract of this plant exhibited animalarial activity by cell free method providing IC50 at 1.1876 mg/mL. Crude extracts did not exhibit any toxicity assessed by brine shrimp lethality assay. Phytochemical study of methanolic extract by using reverse phase HPLC method and NMR instrument for isolation and identification of pure compounds respectively, yielded 2-(4- hydroxy phenyl) ethyl-O-β-D- glucopyranoside from 10% and apigenin 7-O-glucoside, verbascoside and martynoside from 40% SPE fraction. Occurance of verbascoside and martynoside as biochemical markers appeared to be widespread in this genus. Antioxidant and antimalarial activity of MeOH and DCM extracts, respectively, as well as no general toxicity of them could provide a basis for further in-vitro and in-vivo studies and clinical trials to develop new therapeutical alternatives.


Introduction
Scutellaria which belongs to Labiatae family, spread throughout the world, with approximately 350 currently recognized species (1)(2). Plants of this genus have been traditionally used in China, Korea, and Japan as an agent for activating blood circulation, inducing diuresis and reducing oedema. Some other applications of these plants in folk medicine are due to their anti-inflammatory, antiviral, sedative and antioxidant effects (3). Modern pharmacologic researches on crude extracts and isolated compounds of the plants of this genus, confirmed multiple biological activities, including anticonvulsant (2, 4), prolyl oligopeptidase inhibitory, hepatoprotective (3, 5), memory improvement (6-7) effects. In some in-vitro methods, phytochemicals of some species of Scutellaria, exhibited potent cytotoxic effects on some of the human tumour cell lines (8-10). Flavonoids (3,(11)(12) and neoclerodan diterpenoids (1,(13)(14) as well as iridoids (3,15), phenyl alcohol glycosides and alkaloids (3, 16) have been isolated from several species of Scutellaria. Due to Remarkable and diverse biological activities of other species of scutellaria genus, this study aimed to evaluate biological activity and identify chemical composition of this plant. To our knowledge there have been no reports on biological activities and chemical composition of S. platystegia.

Antimalaria assay
The antimalaria potential of extracts was determined using cell free method which was described by Fitch et al. (19) with some modifications (20). Different concentrations of the n-hexan, DCM and methanolic extracts ranging from 0-2 mg/mL in 10% DMSO, were incubated in 300 µL of haematin which was freshly dissolved in 0.1 M NaOH, 10 mM oleic acid and 10 µM HCl. Afterwards 500 mM sodium acetate buffer, pH 5, was added to test tubes for adjusting reaction volume to 1000 µL. Positive control was chloroquine diphosphate in this test. The samples were incubated overnight at 37 ºC with regular shaking. After incubation, samples were centrifuged at 14,000 × g, for 10 min, at 21 °C and the hemozoin pellet repeatedly washed with sonication (30 min, at 21 °C; FS100 bath sonicator; Decon Ultrasonics Ltd.) in 2.5% (w/v) SDS in phosphate buffered saline followed by a final wash in 0.1 M sodium bicarbonate, pH 9.0, until the supernatant became clear which usually happens after 3-5 washes. After the final wash, the supernatant was removed and the pellets were re-suspended in 1 mL of 0.1 M NaOH before determining the hemozoin content by measuring the absorbance at 400 nm (Beckmann DU640 spectrophotometer). Results were recorded as IC%, which is inhibition of heme crystallization compared to chloroquine as positive control, using the following formula: IC% = [(AB-AA)/AB] × 100, where AB and AA are absorbance of blank and test samples respectively. Final results which mean inhibition of hemezoin polymerization have been shown as IC50.

Brine shrimp lethality assay
This test is proposed as a preliminary and simple assay to study general toxicity of plant extracts. The eggs of Artemia salina purchased from Water Life, Middlesex, UK, were hatched in a flask containing 300 mL of artificial sea water aerated by the aid of an air pump. The flasks were kept in a 29-30 ºC water bath and a bright light was left on. Afterwards, nauplii were hatched after 48 h. 1 mg/mL of n-hexan, DCM, MeOH were prepared by dissolving them in 5% DMSO. These solutions were serially diluted to obtain 7 concentrations, by the aid of aerated sea

Plant material
Aerial parts of Scutellaria platystegia (family Labiatae) were gathered from Yam region of East Azarbaijan province of Iran in June 2009. A voucher specimen (Tbz-Fph-724) for this collection has been deposited in the Herbarium of pharmacy faculty, Tabriz University of Medical Sciences, Tabriz, Iran. 100 g of the air dried and grounded sample was extracted by the aid of Soxhlet apparatus using hexane, dichloromethane (DCM) and methanol (MeOH) respectively (1 L for each solvent). Obtained extracts were individually concentrated under vacuum in a rotary evaporator (Heidolph, Germany), yielding 1.67 g, 1.50 g and 24.50 g respectively.
DPPH assay Antioxidant activity of extracts and different SPE fractions was performed using DPPH assay. The basis of this experiment was Bleaching of purple coloured methanolic solution of 2, 2-diphenyl -1-pycryl hydrazyl (DPPH) (sigma). In order to obtain antioxidant activity, different sample solution series were prepared. 5 mL of each concentration of methanolic extract and SPE fractions were added to 5 mL of 0.004% methanolic solution of DPPH. After 30 min incubation of solutions at room temperature and bleaching of DPPH, absorption of samples was monitored at 517 nm against a blank. Inhibition of DPPH was calculated as RC 50 that was extrapolated from dose-response curve. Tests were carried out in duplicate (17-18).
water this experiment was carried out for twice. About ten nauplii were transferred in to each test tube. The number of alive nauplii were counted after 24 h. The control test tubes contained 5% DMSO, saline and podophyllotoxin (21-23).

Isolation of compounds
Preparative reversed phase HPLC with photodiode array detector was used for isolation of phytochemicals from 20 and 40% SPE fractions. Each fraction was analysed repeatedly by preparative reverse phase HPLC (Knauer, preparative pump 1800), equipped with a Reprosil 100 C18 (250 mm length, 20 mm i.d, particle size 10 µm, Dr. Maisch, Germany) column. The mobile phase consisted of (A) methanol and (B) water. The following mobile phase program was used over 60 min to isolate glycosylated phenylethanoid (Figure 1) from the 10% SPE fraction: A initially changed to 10% in 15 min. then it changed to 20% in 50 min, maintained there for 10 min. A program over a run time of 50 min was applied for separation of 7-glucoapigenin (Figure 2), verbascoside ( Figure 3) and martynoside (Figure 4) from the 40% SPE fraction: 17% A initially changed to 28% in 40 min. Then, it stayed there for 10 min. Photodiode Array Detector (PDA) was used to monitor the chromatogram, and the HPLC separation was carried out at room temperature. The flow rate was 8 mL/min and the injection volume was 1 mL. Structures of compounds were determined by H and C NMR (Brukerspectrospin at 200MHz) as well as comparison with the literature data of respective compounds.

DPPH assay was performed to determine
Radical scavenging activity of extracts and SPE fractions of this plant. As it can be seen in Table 1, methanolic extract showed better antioxidant activity than other crude extracts. Table 2 demonstrated that among SPE fractions, 20% and 40% hydroalcoholic fractions were more potent antioxidants. Results of antimalarial activity of this plant, which was determined by cell free method, exhibited in Table 3. DCM crude extract, providing IC50 at 1.1876 mg/mL showed potential of antimalarial activity.
Observation of radical scavenging activity from methanolic extract and SPE fractions encouraged us to study this plant phytochemically. Reverse-phase prep-HPLC analysis of SPE fractions of methanolic extract of aerial parts of S. platystegia (Labiatae) yielded 2-(4-hydroxy phenyl) ethyl-O-β-D-glucopyranoside from 10% ,one flavonoid (Apigenin 7-O-glucoside) and 2 phenyl ethanoid glycosides (verbascoside and martynoside) from 40% SPE fractions. In fact compounds 1-4 have been identified previously from other species of this genus (26-34), whereas this is the first report of these phytochemicals from S. platystegia. Distribution of compounds 1-4 has been demonstrated in Table 4.

Discussion
Recently, phytochemicals as bioactive components of plant extracts has received considerable attention. Antioxidants, the agents against oxidative stress-mediated disorders, with free radical scavenging activity, can prevent damages caused by various disorders (35-38). Antioxidant capacity of phenolic compounds isolated from plants (39-42) and Correlation of phenol content and antioxidant activity has been shown in different studies as well (43-44). According to some evidences, flavonoids and phenylethanoids as plant derived polyphenolic compounds act as free radical acceptors, and potent antioxidants (45-49). Plants of Scutellaria genus, used in traditional medicine for thousands years, with variety of confirmed pharmacological effects in modern researches, has been shown free radical scavenging and antioxidant activities due to existence of different phenolic compounds such as flavonoids and phenylethanoids (50-57). Results of this study demonstrated that verbascoside, martynoside and apigenin as antioxidant compounds (45,(58)(59)(60)(61)(62), which existed in methanolic extract and isolated from 40% fraction were responsible for good radical scavenging activity of this methanolic fraction (0.0342 mg/mL). Further investigations will reveal other phytochemicals responsible for radical scavenging activity of 20% and 60% fractions. Identification of apigenin, martynoside and verbascoside as anti-inflammatory and antioxidant constituents from methanolic extract, is in agreement with traditional usage of this plant as an antiinflammatory agent (63-66) and confirm its use in folk medicine.
Malaria, a malignancy with worldwide spread, results in loss of lives each year. Resistance of deadly forms of malaria parasites to anti-malarial drugs highlights needs for new antimalarial drugs (67). Anti-fever herbal plants used in traditional medicine might contain some antimalarial phytochemicals which could lead to development of new drugs for treatment of this mortal malignancy (68). Diverse nature of Iran possesses medicinal plants which could be alternative choice for treatment of malaria. In previous works, traditionally used febrifuge plants to treat fever as a symptom of malaria, have been selected for antimalarial studies (69-71). Since several species of Scutellaria have been used as febrifuge in folk medicine, extracts of S. platystegia were subjected to in-vitro antimalarial test (57, 72-73) and interestingly DCM extract of this plant demonstrated antimalarial activity. Further investigations are needed to identify and purify compounds responsible for antimalarial activity of this plant.
Brine shrimp lethality assay, a suitable, simple, rapid procedure with low cost (74-75), was chosen to determine general toxicity of plant extracts. None of the plant extracts exhibited any toxicity at highest test concentrations (1 mg/mL).
Biological activity of methanolic extract conducted us to phytochemical study of this plant. 2-(4-hydroxy phenyl) ethyl-O-β-Dglucopyranoside (from 10% SPE fraction), Apigenin-7-O-glucoside, verbascoside and martynoside (from 40% SPE fraction) were isolated and identified by UV and NMR analysis. All spectroscopic data were in agreement with respective published data. Identified components have been reported from other species of Scutellaria genus, while distribution of verbascoside and martynoside appears to be widespread (Table 4). So, it is concluded that these two phytochemicals could be determined as chemical biomarkers in this genus. To our knowledge, this is the first report on the antioxidant and antimalarial activity as well as occurrence of compounds 1-4 within this species.

Conclusion
It can be concluded that antioxidant and antimalarial activity of MeOH and DCM extracts, respectively, as well as no general toxicity of them, could provide a basis for further in-vitro and in-vivo studies and clinical trials to develop new therapeutical alternatives. More over the results of present study show that it is worth to do further phytochemical studies on Iranian Scutellaria species and to isolate compounds responsible for antioxidant and antimalarial activities.